Influence of Boron on the Structure and Physicomechanical Properties of Ti30Zr25Hf15Nb20Ta10 High-Entropy Alloy

Influence of Boron on the Structure and Physicomechanical Properties of Ti30Zr25Hf15Nb20Ta10 High-Entropy Alloy

By the arc-melting method, we obtain a high-entropy boride by adding boron powder to the Ti 30 Zr 25 Hf 15 Nb 20 Ta 10 alloy. The data of X-ray phase diffraction analysis show that the Ti 30 Zr 25 Hf 15 Nb 20 Ta 10 alloy is a single-phase alloy with body-centered cubic (bcc) structure and that the m...

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Veröffentlicht in:Materials science (New York, N.Y.) N.Y.), 2022, Vol.58 (3), p.422-426
Hauptverfasser: Myslyvchenko, O. M., Gorban’, V. F., Samelyuk, A. V., Krapivka, M. O.
Format: Artikel
Sprache:eng
Schlagworte:
Boron
Characterization and Evaluation of Materials
Chemistry and Materials Science
Electric arc melting
High entropy alloys
Materials Science
Metallurgical constituents
Modulus of elasticity
Solid Mechanics
Structural Materials
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Zusammenfassung:By the arc-melting method, we obtain a high-entropy boride by adding boron powder to the Ti 30 Zr 25 Hf 15 Nb 20 Ta 10 alloy. The data of X-ray phase diffraction analysis show that the Ti 30 Zr 25 Hf 15 Nb 20 Ta 10 alloy is a single-phase alloy with body-centered cubic (bcc) structure and that the main phase of the Ti 15.8 Zr 13.4 Hf 7.8 Nb 10.5 Ta 5.3 B 47.2 alloy is MeB boride with insignificant amount of bcc and hexagonal close-packed structures. The microstructure of the obtained alloys is analyzed and it is shown that the addition of boron leads to the segregation of constituent components of the alloy. The addition of boron also increases the level of hardness from 3.5 to 33.5 GPa, the modulus of elasticity from 75 to 290 GPa, and the yield strength from 1.06 to 10.28%.
ISSN:1068-820X
1573-885X
DOI:10.1007/s11003-023-00680-8